# -*- test-case-name: twisted.test.test_internet -*- # $Id: default.py,v 1.90 2004/01/06 22:35:22 warner Exp $ # # Copyright (c) 2001-2004 Twisted Matrix Laboratories. # See LICENSE for details. from __future__ import generators """Threaded select reactor API Stability: unstable Maintainer: U{Bob Ippolito} The threadedselectreactor is a specialized reactor for integrating with arbitrary foreign event loop, such as those you find in GUI toolkits. There are three things you'll need to do to use this reactor. Install the reactor at the beginning of your program, before importing the rest of Twisted:: | from twisted.internet import threadedselectreactor | threadedselectreactor.install() Interleave this reactor with your foreign event loop, at some point after your event loop is initialized:: | from twisted.internet import reactor | reactor.interleave(foreignEventLoopWakerFunction) | self.addSystemEventTrigger('after', 'shutdown', foreignEventLoopStop) Instead of shutting down the foreign event loop directly, shut down the reactor:: | from twisted.internet import reactor | reactor.stop() In order for Twisted to do its work in the main thread (the thread that interleave is called from), a waker function is necessary. The waker function will be called from a "background" thread with one argument: func. The waker function's purpose is to call func() from the main thread. Many GUI toolkits ship with appropriate waker functions. Some examples of this are wxPython's wx.callAfter (may be wxCallAfter in older versions of wxPython) or PyObjC's PyObjCTools.AppHelper.callAfter. These would be used in place of "foreignEventLoopWakerFunction" in the above example. The other integration point at which the foreign event loop and this reactor must integrate is shutdown. In order to ensure clean shutdown of Twisted, you must allow for Twisted to come to a complete stop before quitting the application. Typically, you will do this by setting up an after shutdown trigger to stop your foreign event loop, and call reactor.stop() where you would normally have initiated the shutdown procedure for the foreign event loop. Shutdown functions that could be used in place of "foreignEventloopStop" would be the ExitMainLoop method of the wxApp instance with wxPython, or the PyObjCTools.AppHelper.stopEventLoop function. """ from threading import Thread from Queue import Queue, Empty from time import sleep import sys from zope.interface import implements from twisted.internet.interfaces import IReactorFDSet from twisted.internet import error from twisted.internet import posixbase from twisted.python import log, components, failure, threadable from twisted.persisted import styles from twisted.python.runtime import platformType import select from errno import EINTR, EBADF from twisted.internet.selectreactor import _select # Exceptions that doSelect might return frequently _NO_FILENO = error.ConnectionFdescWentAway('Handler has no fileno method') _NO_FILEDESC = error.ConnectionFdescWentAway('Filedescriptor went away') def dictRemove(dct, value): try: del dct[value] except KeyError: pass def raiseException(e): raise e class ThreadedSelectReactor(posixbase.PosixReactorBase): """A threaded select() based reactor - runs on all POSIX platforms and on Win32. """ implements(IReactorFDSet) def __init__(self): threadable.init(1) self.reads = {} self.writes = {} self.toThreadQueue = Queue() self.toMainThread = Queue() self.workerThread = None self.mainWaker = None posixbase.PosixReactorBase.__init__(self) self.addSystemEventTrigger('after', 'shutdown', self._mainLoopShutdown) def wakeUp(self): # we want to wake up from any thread self.waker.wakeUp() def callLater(self, *args, **kw): tple = posixbase.PosixReactorBase.callLater(self, *args, **kw) self.wakeUp() return tple def _sendToMain(self, msg, *args): #print >>sys.stderr, 'sendToMain', msg, args self.toMainThread.put((msg, args)) if self.mainWaker is not None: self.mainWaker() def _sendToThread(self, fn, *args): #print >>sys.stderr, 'sendToThread', fn, args self.toThreadQueue.put((fn, args)) def _preenDescriptorsInThread(self): log.msg("Malformed file descriptor found. Preening lists.") readers = self.reads.keys() writers = self.writes.keys() self.reads.clear() self.writes.clear() for selDict, selList in ((self.reads, readers), (self.writes, writers)): for selectable in selList: try: select.select([selectable], [selectable], [selectable], 0) except: log.msg("bad descriptor %s" % selectable) else: selDict[selectable] = 1 def _workerInThread(self): try: while 1: fn, args = self.toThreadQueue.get() #print >>sys.stderr, "worker got", fn, args fn(*args) except SystemExit: pass except: f = failure.Failure() self._sendToMain('Failure', f) #print >>sys.stderr, "worker finished" def _doSelectInThread(self, timeout): """Run one iteration of the I/O monitor loop. This will run all selectables who had input or output readiness waiting for them. """ reads = self.reads writes = self.writes while 1: try: r, w, ignored = _select(reads.keys(), writes.keys(), [], timeout) break except ValueError, ve: # Possibly a file descriptor has gone negative? log.err() self._preenDescriptorsInThread() except TypeError, te: # Something *totally* invalid (object w/o fileno, non-integral # result) was passed log.err() self._preenDescriptorsInThread() except (select.error, IOError), se: # select(2) encountered an error if se.args[0] in (0, 2): # windows does this if it got an empty list if (not reads) and (not writes): return else: raise elif se.args[0] == EINTR: return elif se.args[0] == EBADF: self._preenDescriptorsInThread() else: # OK, I really don't know what's going on. Blow up. raise self._sendToMain('Notify', r, w) def _process_Notify(self, r, w): #print >>sys.stderr, "_process_Notify" reads = self.reads writes = self.writes _drdw = self._doReadOrWrite _logrun = log.callWithLogger for selectables, method, dct in ((r, "doRead", reads), (w, "doWrite", writes)): for selectable in selectables: # if this was disconnected in another thread, kill it. if selectable not in dct: continue # This for pausing input when we're not ready for more. _logrun(selectable, _drdw, selectable, method, dct) #print >>sys.stderr, "done _process_Notify" def _process_Failure(self, f): f.raiseException() _doIterationInThread = _doSelectInThread def ensureWorkerThread(self): if self.workerThread is None or not self.workerThread.isAlive(): self.workerThread = Thread(target=self._workerInThread) self.workerThread.setDaemon(True) self.workerThread.start() def doThreadIteration(self, timeout): self._sendToThread(self._doIterationInThread, timeout) self.ensureWorkerThread() #print >>sys.stderr, 'getting...' msg, args = self.toMainThread.get() #print >>sys.stderr, 'got', msg, args getattr(self, '_process_' + msg)(*args) doIteration = doThreadIteration def mainLoopBegin(self): if self.running: self.runUntilCurrent() def _interleave(self): while self.running: #print >>sys.stderr, "runUntilCurrent" self.runUntilCurrent() t2 = self.timeout() t = self.running and t2 self._sendToThread(self._doIterationInThread, t) #print >>sys.stderr, "yielding" yield None #print >>sys.stderr, "fetching" msg, args = self.toMainThread.get_nowait() getattr(self, '_process_' + msg)(*args) def interleave(self, waker, *args, **kw): """ interleave(waker) interleaves this reactor with the current application by moving the blocking parts of the reactor (select() in this case) to a separate thread. This is typically useful for integration with GUI applications which have their own event loop already running. See the module docstring for more information. """ self.startRunning(*args, **kw) loop = self._interleave() def mainWaker(waker=waker, loop=loop): #print >>sys.stderr, "mainWaker()" waker(loop.next) self.mainWaker = mainWaker loop.next() self.ensureWorkerThread() def _mainLoopShutdown(self): self.mainWaker = None if self.workerThread is not None: #print >>sys.stderr, 'getting...' self._sendToThread(raiseException, SystemExit) self.wakeUp() try: while 1: msg, args = self.toMainThread.get_nowait() #print >>sys.stderr, "ignored:", (msg, args) except Empty: pass self.workerThread.join() self.workerThread = None try: while 1: fn, args = self.toThreadQueue.get_nowait() if fn is self._doIterationInThread: log.msg('Iteration is still in the thread queue!') elif fn is raiseException and args[0] is SystemExit: pass else: fn(*args) except Empty: pass def _doReadOrWrite(self, selectable, method, dict): try: why = getattr(selectable, method)() handfn = getattr(selectable, 'fileno', None) if not handfn: why = _NO_FILENO elif handfn() == -1: why = _NO_FILEDESC except: why = sys.exc_info()[1] log.err() if why: self._disconnectSelectable(selectable, why, method == "doRead") def addReader(self, reader): """Add a FileDescriptor for notification of data available to read. """ self._sendToThread(self.reads.__setitem__, reader, 1) self.wakeUp() def addWriter(self, writer): """Add a FileDescriptor for notification of data available to write. """ self._sendToThread(self.writes.__setitem__, writer, 1) self.wakeUp() def removeReader(self, reader): """Remove a Selectable for notification of data available to read. """ self._sendToThread(dictRemove, self.reads, reader) def removeWriter(self, writer): """Remove a Selectable for notification of data available to write. """ self._sendToThread(dictRemove, self.writes, writer) def removeAll(self): return self._removeAll(self.reads, self.writes) def run(self, installSignalHandlers=1): self.startRunning(installSignalHandlers=installSignalHandlers) self.mainLoop() def mainLoop(self): q = Queue() self.interleave(q.put) while self.running: try: q.get()() except StopIteration: break components.backwardsCompatImplements(ThreadedSelectReactor) def install(): """Configure the twisted mainloop to be run using the select() reactor. """ reactor = ThreadedSelectReactor() from twisted.internet.main import installReactor installReactor(reactor) return reactor __all__ = ['install']